1) NiB amorphous alloy catalyst
非晶态NiB合金催化剂
1.
NiB amorphous alloy catalysts supported on carbon nanotubes (CNTs) were prepared by impregnation-chemical reduction method with the aid of ultra-sonication.
本论文以碳纳米管为载体,采用超声辅助的浸渍-化学还原法制备NiB/CNTs非晶态合金催化剂,以乙炔选择加氢为探针反应,研究了碳纳米管的预处理、功能化处理、过渡及稀土金属对非晶态NiB合金催化剂性能的影响。
2) NiB/SiO2 amorphous alloy
NiB/SiO2非晶态合金
1.
2,2-Dimethyl-3-(3-methylphenyl)-propan-1-ol was synthesized using NiB/SiO2 amorphous alloy as catalyst and 2,2-dimethyl-3-(3-methylphenyl)propionaldehyde as starting materials through hydrogenation.
以NiB/SiO2非晶态合金为催化剂,2,2-二甲基-3-(3-甲基苯基)丙醛(甲基铃兰醛)为原料,催化加氢合成了2,2-二甲基-3-(3-甲基苯基)丙醇(甲基铃兰醇)。
3) NiB amorphous alloy catalysts
NiB非晶态合金
4) amorphous NiB alloy
非晶态NiB合金
1.
Gas-phase hydrogenation of benzene was selected as probe reaction to study the effects of heavy rare earth elements on the catalytic activity and sulfur resist ance of amorphous NiB alloy.
用脉冲微反技术以苯加氢反应为探针,研究了重稀土元素Dy,Ho,Er,Tm,Yb,Lu对非晶态NiB合金催化剂的加氢和抗硫性能的影响。
6) amorphous alloy catalyst
非晶态合金催化剂
1.
Influence of metal additives on properties of supported Ni-B amorphous alloy catalysts for hydrogenation of o-chloronitrobenzene to o-chloroaniline;
金属添加剂对Ni-B非晶态合金催化剂邻氯硝基苯加氢性能的影响
2.
A series of supported NiB and NiCoB amorphous alloy catalysts was prepared by means of the metal inducing electroless plating and their catalytic activities were measured by hydrogenation of(dimethyl) aminoureazinic acid.
采用金属诱导化学镀法制备负载型N iB、N iCoB非晶态合金催化剂,将其用于二甲基紫脲酸加氢反应。
3.
Both unsupported NiB(P) and supported NiB(P) amorphous alloy catalysts NiB(P)/TiO 2 have been prepared by an induction chemical deposition method and electroless plating on powder, respectively.
采用诱导沉积法及粉末化学镀方法 ,分别制备了纯态 Ni B、Ni P及负载型 Ni B/Ti O2 、Ni P/Ti O2 非晶态合金催化剂 。
补充资料:非晶态合金
分子式:
CAS号:
性质:一种没有原子三维周期性排列的金属或合金固体。它在超过几个原子间距范围以外,不具有长程有序的晶体点阵排列。和普通晶态金属与合金相比,非晶态金属与合金具有较高的强度、良好的磁学性能和抗腐蚀性能等,通常又称之为金属玻璃或玻璃态合金。可部分替代硅钢、玻莫合金和铁氧体等软磁材料,且综合性能高于这些材料。
CAS号:
性质:一种没有原子三维周期性排列的金属或合金固体。它在超过几个原子间距范围以外,不具有长程有序的晶体点阵排列。和普通晶态金属与合金相比,非晶态金属与合金具有较高的强度、良好的磁学性能和抗腐蚀性能等,通常又称之为金属玻璃或玻璃态合金。可部分替代硅钢、玻莫合金和铁氧体等软磁材料,且综合性能高于这些材料。
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